package com.appsindy.common.action;

import java.util.Calendar;

public class DateTools {
    public final static String version = "$Rev: 2 $";
    public static String days[] =
        {
            "Sunday",
            "Monday",
            "Tuesday",
            "Wednesday",
            "Thursday",
            "Friday",
            "Saturday" };

    public static String months[] =
        {
            "January",
            "February",
            "March",
            "April",
            "May",
            "June",
            "July",
            "August",
            "September",
            "October",
            "November",
            "December" };
    public static int daysPerMonth[] =
        { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };

/**
 * Insert the method's description here.
 * Creation date: (9/26/01 2:19:17 PM)
 * @param userYear int
 * @param userMonth int
 */
public static int CalcEndOfMonth(int userYear, int userMonth) {

int daysPerMonth[] =
        { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
        
        return daysPerMonth[userMonth]
        + ((IsLeapYear(userYear) && (userMonth == Calendar.FEBRUARY)) ? 1 : 0);
}
    public static int CalcFirstOfMonth(int year, int month)
    /*
       USE:  Calculates day of the week the first day of the month falls on.
       IN:   year = given year after 1582 (start of the Gregorian calendar).
             month = 0 for January, 1 for February, etc.
       OUT:  First day of month: 0 = Sunday, 1 = Monday, etc.
    */ {
		int daysAMonth[] =
        { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };        
        int firstDay; /* day of week for Jan 1, then first day of month */
        int i; /* to traverse months before given month */

        /* Start at 1582, when modern calendar starts. */
        if (year < 1582)
            return (-1);

        /* Catch month out of range. */
        if ((month < 0) || (month > 11))
            return (-1);

        /* Get day of week for Jan 1 of given year. */
        firstDay = CalcJanuaryFirst(year);

        /* Increase firstDay by days in year before given month to get first day
         * of month.
         */
        for (i = 0; i < month; i++)
            firstDay += daysAMonth[i];

        /* Increase by one if month after February and leap year. */
        if ((month > Calendar.FEBRUARY) && IsLeapYear(year))
            firstDay++;

        /* Convert to day of the week and return. */
        return (firstDay % 7);
    } // CalcFirstOfMonth    
    public static int CalcJanuaryFirst(int year)
    /*
       USE:  Calculate day of the week on which January 1 falls for given year.
       IN:   year = given year after 1582 (start of the Gregorian calendar).
       OUT:  Day of week for January 1: 0 = Sunday, 1 = Monday, etc.
       NOTE: Formula starts with a 5, since January 1, 1582 was a Friday; then
             advances the day of the week by one for every year, adding the
             number of leap years intervening, because those years Jan 1
             advanced by two days. Calculate mod 7 to get the day of the week.
    */ {
        /* Start at 1582, when modern calendar starts. */
        if (year < 1582)
            return (-1);

        /* Start Fri 01-01-1582; advance a day for each year, 2 for leap yrs. */
        return ((5 + (year - 1582) + CalcLeapYears(year)) % 7);
    } // CalcJanuaryFirst
    public static int CalcLeapYears(int year)
    /*
       USE:  Calculate number of leap years since 1582.
       IN:   year = given year after 1582 (start of the Gregorian calendar).
       OUT:  number of leap years since the given year, -1 if year < 1582
       NOTE: Count doesn't include the given year if it is a leap year.
             In the Gregorian calendar, used since 1582, every fourth year
             is a leap year, except for years that are a multiple of a
             hundred, but not a multiple of 400, which are no longer leap
             years. Years that are a multiple of 400 are still leap years:
             1700, 1800, 1990 were not leap years, but 2000 will be.
    */ {
        int leapYears; /* number of leap years to return */
        int hundreds; /* number of years multiple of a hundred */
        int fourHundreds; /* number of years multiple of four hundred */

        /* Start at 1582, when modern calendar starts. */
        if (year < 1582)
            return (-1);

        /* Calculate number of years in interval that are a multiple of 4. */
        leapYears = (year - 1581) / 4;

        /* Calculate number of years in interval that are a multiple of 100;
         * subtract, since they are not leap years.
         */
        hundreds = (year - 1501) / 100;
        leapYears -= hundreds;

        /* Calculate number of years in interval that are a multiple of 400;
         * add back in, since they are still leap years.
         */
        fourHundreds = (year - 1201) / 400;
        leapYears += fourHundreds;

        return (leapYears);
    } // CalcLeapYears
/**
 * Insert the method's description here.
 * Creation date: (9/26/01 2:19:17 PM)
 * @param userYear int
 * @param userMonth int
 */
public static void DaysInMonth(int userYear, int userMonth) {

    int numDays =
        daysPerMonth[userMonth]
            + ((IsLeapYear(userYear) && (userMonth == Calendar.FEBRUARY)) ? 1 : 0);
}
    public static boolean IsLeapYear(int year)
    /*
       USE:  Determines if given year is a leap year.
       IN:   year = given year after 1582 (start of the Gregorian calendar).
       OUT:  TRUE if given year is leap year, FALSE if not.
       NOTE: Formulas capture definition of leap years; cf CalcLeapYears().
    */ {

        /* If multiple of 100, leap year iff multiple of 400. */
        if ((year % 100) == 0)
            return ((year % 400) == 0);

        /* Otherwise leap year iff multiple of 4. */
        return ((year % 4) == 0);
    } // IsLeapYear
    public static int NumberRowsNeeded(int year, int month)
    /*
       USE:  Calculates number of rows needed for calendar.
       IN:   year = given year after 1582 (start of the Gregorian calendar).
             month = 0 for January, 1 for February, etc.
       OUT:  Number of rows: 5 or 6, except for a 28 day February with
             the first of the month on Sunday, requiring only four rows.
    */ {
        int firstDay; /* day of week for first day of month */
        int numCells; /* number of cells needed by the month */
		int daysPerMonth[] =
        { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
        /* Start at 1582, when modern calendar starts. */
        if (year < 1582)
            return (-1);

        /* Catch month out of range. */
        if ((month < 0) || (month > 11))
            return (-1);

        /* Get first day of month. */
        firstDay = CalcFirstOfMonth(year, month);

        /* Non leap year February with 1st on Sunday: 4 rows. */
        if ((month == Calendar.FEBRUARY) && (firstDay == 0) && !IsLeapYear(year))
            return (4);

        /* Number of cells needed = blanks on 1st row + days in month. */
        numCells = firstDay + daysPerMonth[month];

        /* One more cell needed for the Feb 29th in leap year. */
        if ((month == Calendar.FEBRUARY) && (IsLeapYear(year)))
            numCells++;

        /* 35 cells or less is 5 rows; more is 6. */
        return ((numCells <= 35) ? 5 : 6);
    } // NumberRowsNeeded
}
